Mr. Callum Bryant
HONOURS STUDENT - Ball (Marilyn) Group - Ecophysiology of salinity and freezing tolerance
Type
Party
Party Type
person
Access Privileges
Division of Plant Science
Title
Mr.
Given Name
Callum
Surname
Bryant
Uni ID
u5809278
Brief Description
HONOURS STUDENT - Ball (Marilyn) Group - Ecophysiology of salinity and freezing tolerance
Full Description
HONOURS STUDENT - Ball (Marilyn) Group - Ecophysiology of salinity and freezing tolerance
Email Address
u5809278@anu.edu.au
Postal Address
Rm E303, Level 3, RN Robertson Building (46), The Australian National University
ACT 2600 Australia
Website Address
https://biology.anu.edu.au/people/callum-bryant
Fields of Research
060705 - Plant Physiology;
060203 - Ecological Physiology
Status: Published
Published to:
Published to:
- Australian National University
- Australian National Data Service
Related items
- hasAssociationWith:
Leaf Gas Exchange, Water Relations, and Elemental Analyses of the Mangrove Fern Acrostichum speciosum [anudc:5996] - hasAssociationWith:
Kinetics of shoot surface water uptake and its effects on leaf hydraulic conductance in Avicennia marina [anudc:6026] - hasAssociationWith:
Dry season acclimation of leaf and stem traits in the mangrove Sonneratia alba, Daintree River, QLD, 2018, DP180102969 [anudc:6096] - hasAssociationWith:
The effects of seasonality and leaf dehydration on foliar water uptake rehydration kinetics in the mangrove Sonneratia alba, Daintree River, QLD, DP150104437 and DP180102969. [anudc:6099] - hasAssociationWith:
Memory of extreme drought and heat increases acclimation of mangrove leaf water relations to salinity ARC DP180102969 [anudc:6112] - hasAssociationWith:
The effect of salinity on branch water relations and stem hydraulic vulnerability in two co-occurring mangrove species ARC DP180102969 [anudc:6254] - isPrincipalInvestigatorOf:
Publication dataframes - Cross tolerance: salinity gradients and dehydration increase photosynthetic heat tolerance in mangrove leaves. [anudc:6274] - isPrincipalInvestigatorOf:
Dataset - Elevation-dependent patterns of borer-mediated snow-gum dieback are associated with subspecies’ trait differences and environmental variation [anudc:6284]